5- The input to the circuit of problem 1 is a 10 kHz square wave with...
5- The input to the circuit of problem 1 is a 10 kHz square wave with a peak-to-peak amplitude of 2 V and rise and fall times of 1 µs. Sketch the output waveform if the op amp used is a µA741.
6. Repeat 5 if the op amp is an LM318.
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5- The input to the circuit of problem 1 is a 10 kHz square wave
with...
2.90 An op-amp differentiator, employing the circuit shown in Fig. 2.27(a), has R 10 k2 and C 0.1...
2.90 An op-amp differentiator, employing the circuit shown in Fig. 2.27(a), has R 10 k2 and C 0.1 uF. When a triangle wave of Łl-V peak amplitude at 1 kHz is applied to the input, what form of output results? What is its fre- quency? What is its peak amplitude? What is its average value? What value of R is needed to cause the output to have a 10-V peak amplitude?
2.90 An op-amp differentiator, employing the circuit shown in...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as an input to the circuit having Silicon diode as shown in Figure 1. Draw the approximate input and output wave forms for different V. voltages (-4V, -6Vand -8 V) and answer the interpretation questions Figure 1 Output Wave form at V=-4 V 11 Mark] volts, volts Output Wave form at V.--4 V 11 Mark] Positive peak amplitude Negative peak amplitude - Frequency = Hz...
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal...
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal differentiator circuit having input waveform Vin=lsin[(21)1000t] V. Let RF1.5 k12 and C=10 nF. 2. Use Eq. 3 to find the peak-peak output amplitude of the ideal differentiator of question 1 for a 2 Vpp sine wave input at 1 kHz and 2 kHz. Put the results in the Calculated Output column of Table 1 in Appendix A. 3. Use the indefinite integral version of...
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit...
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us vi + V Solutions
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us...
Op Amp Integrators and Differentiators 1.) Design an op-amp circuit that acts as an integrator. Chose...
Op Amp Integrators and Differentiators 1.) Design an op-amp circuit that acts as an integrator. Chose R and C values to give you a gain of 5 at f-1kHz Draw out the circuit and show the input and output, label all the pin numbers and show where the +-12 power supply connections for the chip are. Turn in the circuit diagram, carefully labelled 2.) Build your circuit and measure the gain as a function of frequency. Collect enough data to...
QUESTION 5 (15 points) a. You have a power supply which is a full-wave rectifier with a capacitor filter. It operates f...
QUESTION 5 (15 points) a. You have a power supply which is a full-wave rectifier with a capacitor filter. It operates from the mains and provides an output of Voc-20 V with 20% ripple, when the load current is 2 A Calculate the maximum and minimum values of the output waveform of this power supply. b. Now you will design a series voltage regulator between the power supply described in part (a) and an electronic device operating at 12 VDC...
Question 4 The input signal to the circuit below is a Triangle wave with a peak...
Question 4 The input signal to the circuit below is a Triangle wave with a peak to peak Vin of 10 V Determine the ideal peak to peak output voltage signal. The Frequency is 1 kHz Note: At 0.5 Tp Amplifier Parameters Vin R1 10 Ypg R1 10 K2 0.01 uF C1 Veu Ereg 1 1H2 Vout Note 4 Vpp, Triangle Wave 4 Vpp, Square Wave 2 Vpp, Square Wave 2 Vpp, Triangle Wave
solve both 2.10 Find the transistor schematic for the CMOS logic circuit realized by the layout...
solve both
2.10 Find the transistor schematic for the CMOS logic circuit realized by the layout shown in Fig. P2.10. Give the widths of all transistors. AssumeL = 21, where A = 0.4 um. In tabular form, give the area and perimeter of each junction that is not connected to VDD or to ground. VDD Polysilicon 8A n well -p diffusion Active region Out 6/ n diffusion Metal Gnd A Fig. P2.10 D 17.33 The circuit of Fig. P17.33 consists...
Laboratory 1: operation amplifier characteristics A. Objectives: 1. To study the basic characteri...
thanks
Laboratory 1: operation amplifier characteristics A. Objectives: 1. To study the basic characteristics of an operational amplifier 2. To study the bias circuit of an operational amplifier B. Apparatus: 1. DC Power supply 2. Experimental board and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Multimeter...
Problem #2: A clipper circuit based on diodes are simple way to modify waveform in mechatronics....
Problem #2: A clipper circuit based on diodes are simple way to modify waveform in mechatronics. Assume that the two diodes shown in the circuit below are ideal diodes. If the input voltage in the circuit is a 1 kHz sinusoid with peak amplitude of 8V, sketch the V..t) 10 k? 10 k? Vin(t ms -8V Page | 1
2.90 An op-amp differentiator, employing the circuit shown in Fig. 2.27(a), has R 10 k2 and C 0.1 uF. When a triangle wave of Łl-V peak amplitude at 1 kHz is applied to the input, what form of output results? What is its fre- quency? What is its peak amplitude? What is its average value? What value of R is needed to cause the output to have a 10-V peak amplitude?
2.90 An op-amp differentiator, employing the circuit shown in...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as an input to the circuit having Silicon diode as shown in Figure 1. Draw the approximate input and output wave forms for different V. voltages (-4V, -6Vand -8 V) and answer the interpretation questions Figure 1 Output Wave form at V=-4 V 11 Mark] volts, volts Output Wave form at V.--4 V 11 Mark] Positive peak amplitude Negative peak amplitude - Frequency = Hz...
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal differentiator circuit having input waveform Vin=lsin[(21)1000t] V. Let RF1.5 k12 and C=10 nF. 2. Use Eq. 3 to find the peak-peak output amplitude of the ideal differentiator of question 1 for a 2 Vpp sine wave input at 1 kHz and 2 kHz. Put the results in the Calculated Output column of Table 1 in Appendix A. 3. Use the indefinite integral version of...
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us vi + V Solutions
3. Design a clamper that will provide a +2 V clamped level to a square wave input for the circuit shown below. The symmetrical square wave input peal-to-peak amplitude is 4 V with a period of 100 us...
Op Amp Integrators and Differentiators 1.) Design an op-amp circuit that acts as an integrator. Chose R and C values to give you a gain of 5 at f-1kHz Draw out the circuit and show the input and output, label all the pin numbers and show where the +-12 power supply connections for the chip are. Turn in the circuit diagram, carefully labelled 2.) Build your circuit and measure the gain as a function of frequency. Collect enough data to...
QUESTION 5 (15 points) a. You have a power supply which is a full-wave rectifier with a capacitor filter. It operates from the mains and provides an output of Voc-20 V with 20% ripple, when the load current is 2 A Calculate the maximum and minimum values of the output waveform of this power supply. b. Now you will design a series voltage regulator between the power supply described in part (a) and an electronic device operating at 12 VDC...
Question 4 The input signal to the circuit below is a Triangle wave with a peak to peak Vin of 10 V Determine the ideal peak to peak output voltage signal. The Frequency is 1 kHz Note: At 0.5 Tp Amplifier Parameters Vin R1 10 Ypg R1 10 K2 0.01 uF C1 Veu Ereg 1 1H2 Vout Note 4 Vpp, Triangle Wave 4 Vpp, Square Wave 2 Vpp, Square Wave 2 Vpp, Triangle Wave
solve both
2.10 Find the transistor schematic for the CMOS logic circuit realized by the layout shown in Fig. P2.10. Give the widths of all transistors. AssumeL = 21, where A = 0.4 um. In tabular form, give the area and perimeter of each junction that is not connected to VDD or to ground. VDD Polysilicon 8A n well -p diffusion Active region Out 6/ n diffusion Metal Gnd A Fig. P2.10 D 17.33 The circuit of Fig. P17.33 consists...
thanks
Laboratory 1: operation amplifier characteristics A. Objectives: 1. To study the basic characteristics of an operational amplifier 2. To study the bias circuit of an operational amplifier B. Apparatus: 1. DC Power supply 2. Experimental board and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Multimeter...
Problem #2: A clipper circuit based on diodes are simple way to modify waveform in mechatronics. Assume that the two diodes shown in the circuit below are ideal diodes. If the input voltage in the circuit is a 1 kHz sinusoid with peak amplitude of 8V, sketch the V..t) 10 k? 10 k? Vin(t ms -8V Page | 1
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